netcdf anxkasacrppihydfeatM1.c1.20200531.000000 { dimensions: time = UNLIMITED ; // (1 currently) feature_num = 185 ; variables: int frame(feature_num) ; frame:_FillValue = -9999 ; frame:long_name = "Field time step (radar ppi) index per sweep in tobac output" ; frame:units = "1" ; int idx(feature_num) ; idx:_FillValue = -9999 ; idx:long_name = "Field number index in tobac output (prior to internal concatenation)" ; idx:units = "1" ; double hdim_1(feature_num) ; hdim_1:_FillValue = -9999. ; hdim_1:long_name = "Field index dim 1 in tobac output (prior to internal concatenation)" ; hdim_1:units = "1" ; double hdim_2(feature_num) ; hdim_2:_FillValue = -9999. ; hdim_2:long_name = "Field index dim 2 in tobac output (prior to internal concatenation)" ; hdim_2:units = "1" ; int num(feature_num) ; num:_FillValue = -9999 ; num:long_name = "Pixel numbers in initial tobac output (prior to internal concatenation)" ; num:units = "1" ; double threshold_value(feature_num) ; threshold_value:_FillValue = -9999. ; threshold_value:long_name = "Ze threshold applied by tobac to detect hydrometeor field center" ; threshold_value:units = "dBZ" ; int feature(feature_num) ; feature:_FillValue = -9999 ; feature:long_name = "Feature (detected hydrometeor field) number" ; feature:units = "1" ; double projection_y_coordinate(feature_num) ; projection_y_coordinate:_FillValue = -9999. ; projection_y_coordinate:long_name = "Field y coordinate in tobac output (prior to internal concatenation)" ; projection_y_coordinate:units = "m" ; double projection_x_coordinate(feature_num) ; projection_x_coordinate:_FillValue = -9999. ; projection_x_coordinate:long_name = "Field x coordinate in tobac output (prior to internal concatenation)" ; projection_x_coordinate:units = "m" ; double ncells(feature_num) ; ncells:_FillValue = -9999. ; ncells:long_name = "Pixel count in tobac output (prior to internal concatenation)" ; ncells:units = "1" ; short edge_flag(feature_num) ; edge_flag:_FillValue = -9999s ; edge_flag:long_name = "0 - hydrometeor field fully within radar FOV; 1 - hydrometeor field extends beyond the radar FOV" ; edge_flag:units = "1" ; short V_D_dealiased(feature_num) ; V_D_dealiased:_FillValue = -9999s ; V_D_dealiased:long_name = "0 - dealiasing not applied (V_D < Nyquist velocity); 1 - dealiasing applied" ; V_D_dealiased:units = "1" ; double artifact_interp_fraction(feature_num) ; artifact_interp_fraction:_FillValue = -9999. ; artifact_interp_fraction:long_name = "Fraction of feature pixels included in artifact mask" ; artifact_interp_fraction:units = "1" ; short artifact_frac_flag(feature_num) ; artifact_frac_flag:_FillValue = -9999s ; artifact_frac_flag:long_name = "Fraction of artifact-containing pixels exceeds 10% of total feature pixels" ; artifact_frac_flag:units = "1" ; double V_D_cld_rel_mean(feature_num) ; V_D_cld_rel_mean:_FillValue = -9999. ; V_D_cld_rel_mean:analysis_type = "cld_rel" ; V_D_cld_rel_mean:units = "m/s" ; V_D_cld_rel_mean:long_name = "cloud-mean relative $V_D$ anomalies" ; V_D_cld_rel_mean:statistic = "mean" ; double Ze_mean(feature_num) ; Ze_mean:_FillValue = -9999. ; Ze_mean:analysis_type = "values" ; Ze_mean:units = "dBZ" ; Ze_mean:long_name = "Reflectivity" ; Ze_mean:statistic = "mean" ; double Ze_std(feature_num) ; Ze_std:_FillValue = -9999. ; Ze_std:analysis_type = "values" ; Ze_std:units = "dBZ" ; Ze_std:long_name = "Reflectivity" ; Ze_std:statistic = "std" ; double Ze_skewness(feature_num) ; Ze_skewness:_FillValue = -9999. ; Ze_skewness:analysis_type = "values" ; Ze_skewness:units = "dBZ" ; Ze_skewness:long_name = "Reflectivity" ; Ze_skewness:statistic = "skewness" ; double Ze_kurtosis(feature_num) ; Ze_kurtosis:_FillValue = -9999. ; Ze_kurtosis:analysis_type = "values" ; Ze_kurtosis:units = "dBZ" ; Ze_kurtosis:long_name = "Reflectivity" ; Ze_kurtosis:statistic = "kurtosis" ; double Ze_min(feature_num) ; Ze_min:_FillValue = -9999. ; Ze_min:analysis_type = "values" ; Ze_min:units = "dBZ" ; Ze_min:long_name = "Reflectivity" ; Ze_min:statistic = "min" ; double Ze_max(feature_num) ; Ze_max:_FillValue = -9999. ; Ze_max:analysis_type = "values" ; Ze_max:units = "dBZ" ; Ze_max:long_name = "Reflectivity" ; Ze_max:statistic = "max" ; double Ze_p01(feature_num) ; Ze_p01:_FillValue = -9999. ; Ze_p01:analysis_type = "values" ; Ze_p01:units = "dBZ" ; Ze_p01:long_name = "Reflectivity" ; Ze_p01:statistic = "p01" ; double Ze_p10(feature_num) ; Ze_p10:_FillValue = -9999. ; Ze_p10:analysis_type = "values" ; Ze_p10:units = "dBZ" ; Ze_p10:long_name = "Reflectivity" ; Ze_p10:statistic = "p10" ; double Ze_p25(feature_num) ; Ze_p25:_FillValue = -9999. ; Ze_p25:analysis_type = "values" ; Ze_p25:units = "dBZ" ; Ze_p25:long_name = "Reflectivity" ; Ze_p25:statistic = "p25" ; double Ze_p50(feature_num) ; Ze_p50:_FillValue = -9999. ; Ze_p50:analysis_type = "values" ; Ze_p50:units = "dBZ" ; Ze_p50:long_name = "Reflectivity" ; Ze_p50:statistic = "p50" ; double Ze_p75(feature_num) ; Ze_p75:_FillValue = -9999. ; Ze_p75:analysis_type = "values" ; Ze_p75:units = "dBZ" ; Ze_p75:long_name = "Reflectivity" ; Ze_p75:statistic = "p75" ; double Ze_p90(feature_num) ; Ze_p90:_FillValue = -9999. ; Ze_p90:analysis_type = "values" ; Ze_p90:units = "dBZ" ; Ze_p90:long_name = "Reflectivity" ; Ze_p90:statistic = "p90" ; double Ze_p99(feature_num) ; Ze_p99:_FillValue = -9999. ; Ze_p99:analysis_type = "values" ; Ze_p99:units = "dBZ" ; Ze_p99:long_name = "Reflectivity" ; Ze_p99:statistic = "p99" ; double sigma_D_mean(feature_num) ; sigma_D_mean:_FillValue = -9999. ; sigma_D_mean:analysis_type = "values" ; sigma_D_mean:units = "m/s" ; sigma_D_mean:long_name = "Doppler spectral width" ; sigma_D_mean:statistic = "mean" ; double sigma_D_std(feature_num) ; sigma_D_std:_FillValue = -9999. ; sigma_D_std:analysis_type = "values" ; sigma_D_std:units = "m/s" ; sigma_D_std:long_name = "Doppler spectral width" ; sigma_D_std:statistic = "std" ; double sigma_D_skewness(feature_num) ; sigma_D_skewness:_FillValue = -9999. ; sigma_D_skewness:analysis_type = "values" ; sigma_D_skewness:units = "m/s" ; sigma_D_skewness:long_name = "Doppler spectral width" ; sigma_D_skewness:statistic = "skewness" ; double sigma_D_kurtosis(feature_num) ; sigma_D_kurtosis:_FillValue = -9999. ; sigma_D_kurtosis:analysis_type = "values" ; sigma_D_kurtosis:units = "m/s" ; sigma_D_kurtosis:long_name = "Doppler spectral width" ; sigma_D_kurtosis:statistic = "kurtosis" ; double sigma_D_min(feature_num) ; sigma_D_min:_FillValue = -9999. ; sigma_D_min:analysis_type = "values" ; sigma_D_min:units = "m/s" ; sigma_D_min:long_name = "Doppler spectral width" ; sigma_D_min:statistic = "min" ; double sigma_D_max(feature_num) ; sigma_D_max:_FillValue = -9999. ; sigma_D_max:analysis_type = "values" ; sigma_D_max:units = "m/s" ; sigma_D_max:long_name = "Doppler spectral width" ; sigma_D_max:statistic = "max" ; double sigma_D_p01(feature_num) ; sigma_D_p01:_FillValue = -9999. ; sigma_D_p01:analysis_type = "values" ; sigma_D_p01:units = "m/s" ; sigma_D_p01:long_name = "Doppler spectral width" ; sigma_D_p01:statistic = "p01" ; double sigma_D_p10(feature_num) ; sigma_D_p10:_FillValue = -9999. ; sigma_D_p10:analysis_type = "values" ; sigma_D_p10:units = "m/s" ; sigma_D_p10:long_name = "Doppler spectral width" ; sigma_D_p10:statistic = "p10" ; double sigma_D_p25(feature_num) ; sigma_D_p25:_FillValue = -9999. ; sigma_D_p25:analysis_type = "values" ; sigma_D_p25:units = "m/s" ; sigma_D_p25:long_name = "Doppler spectral width" ; sigma_D_p25:statistic = "p25" ; double sigma_D_p50(feature_num) ; sigma_D_p50:_FillValue = -9999. ; sigma_D_p50:analysis_type = "values" ; sigma_D_p50:units = "m/s" ; sigma_D_p50:long_name = "Doppler spectral width" ; sigma_D_p50:statistic = "p50" ; double sigma_D_p75(feature_num) ; sigma_D_p75:_FillValue = -9999. ; sigma_D_p75:analysis_type = "values" ; sigma_D_p75:units = "m/s" ; sigma_D_p75:long_name = "Doppler spectral width" ; sigma_D_p75:statistic = "p75" ; double sigma_D_p90(feature_num) ; sigma_D_p90:_FillValue = -9999. ; sigma_D_p90:analysis_type = "values" ; sigma_D_p90:units = "m/s" ; sigma_D_p90:long_name = "Doppler spectral width" ; sigma_D_p90:statistic = "p90" ; double sigma_D_p99(feature_num) ; sigma_D_p99:_FillValue = -9999. ; sigma_D_p99:analysis_type = "values" ; sigma_D_p99:units = "m/s" ; sigma_D_p99:long_name = "Doppler spectral width" ; sigma_D_p99:statistic = "p99" ; double SR_Silber2023_mean(feature_num) ; SR_Silber2023_mean:_FillValue = -9999. ; SR_Silber2023_mean:analysis_type = "Z-S_Silber2023" ; SR_Silber2023_mean:units = "mm/h" ; SR_Silber2023_mean:long_name = "Snow rate (cloud base; Silber, 2023)" ; SR_Silber2023_mean:database = "Cloud base; ARM NSA site; KAZR/HSRL/SONDE" ; SR_Silber2023_mean:source = "Their Table 3" ; SR_Silber2023_mean:reference = "https://doi.org/10.1029/2022JD038202" ; SR_Silber2023_mean:statistic = "mean" ; double SR_Silber2023_std(feature_num) ; SR_Silber2023_std:_FillValue = -9999. ; SR_Silber2023_std:analysis_type = "Z-S_Silber2023" ; SR_Silber2023_std:units = "mm/h" ; SR_Silber2023_std:long_name = "Snow rate (cloud base; Silber, 2023)" ; SR_Silber2023_std:database = "Cloud base; ARM NSA site; KAZR/HSRL/SONDE" ; SR_Silber2023_std:source = "Their Table 3" ; SR_Silber2023_std:reference = "https://doi.org/10.1029/2022JD038202" ; SR_Silber2023_std:statistic = "std" ; double SR_Silber2023_p99(feature_num) ; SR_Silber2023_p99:_FillValue = -9999. ; SR_Silber2023_p99:analysis_type = "Z-S_Silber2023" ; SR_Silber2023_p99:units = "mm/h" ; SR_Silber2023_p99:long_name = "Snow rate (cloud base; Silber, 2023)" ; SR_Silber2023_p99:database = "Cloud base; ARM NSA site; KAZR/HSRL/SONDE" ; SR_Silber2023_p99:source = "Their Table 3" ; SR_Silber2023_p99:reference = "https://doi.org/10.1029/2022JD038202" ; SR_Silber2023_p99:statistic = "p99" ; double SR_Souverijns2017_mean(feature_num) ; SR_Souverijns2017_mean:_FillValue = -9999. ; SR_Souverijns2017_mean:analysis_type = "Z-R" ; SR_Souverijns2017_mean:a = 18. ; SR_Souverijns2017_mean:b = 1.1 ; SR_Souverijns2017_mean:units = "mm/h" ; SR_Souverijns2017_mean:long_name = "Snow rate (surface; Souverijns et al., 2017)" ; SR_Souverijns2017_mean:database = "Surface; Princess Elisabeth, Antarctica; PIP/MRR" ; SR_Souverijns2017_mean:source = "Their Text" ; SR_Souverijns2017_mean:reference = "https://doi.org/10.1016/j.atmosres.2017.06.001" ; SR_Souverijns2017_mean:statistic = "mean" ; double SR_Souverijns2017_std(feature_num) ; SR_Souverijns2017_std:_FillValue = -9999. ; SR_Souverijns2017_std:analysis_type = "Z-R" ; SR_Souverijns2017_std:a = 18. ; SR_Souverijns2017_std:b = 1.1 ; SR_Souverijns2017_std:units = "mm/h" ; SR_Souverijns2017_std:long_name = "Snow rate (surface; Souverijns et al., 2017)" ; SR_Souverijns2017_std:database = "Surface; Princess Elisabeth, Antarctica; PIP/MRR" ; SR_Souverijns2017_std:source = "Their Text" ; SR_Souverijns2017_std:reference = "https://doi.org/10.1016/j.atmosres.2017.06.001" ; SR_Souverijns2017_std:statistic = "std" ; double SR_Souverijns2017_p99(feature_num) ; SR_Souverijns2017_p99:_FillValue = -9999. ; SR_Souverijns2017_p99:analysis_type = "Z-R" ; SR_Souverijns2017_p99:a = 18. ; SR_Souverijns2017_p99:b = 1.1 ; SR_Souverijns2017_p99:units = "mm/h" ; SR_Souverijns2017_p99:long_name = "Snow rate (surface; Souverijns et al., 2017)" ; SR_Souverijns2017_p99:database = "Surface; Princess Elisabeth, Antarctica; PIP/MRR" ; SR_Souverijns2017_p99:source = "Their Text" ; SR_Souverijns2017_p99:reference = "https://doi.org/10.1016/j.atmosres.2017.06.001" ; SR_Souverijns2017_p99:statistic = "p99" ; double SR_KulieBennartz2009_mean(feature_num) ; SR_KulieBennartz2009_mean:_FillValue = -9999. ; SR_KulieBennartz2009_mean:analysis_type = "Z-S_KuliBennartz2009" ; SR_KulieBennartz2009_mean:units = "mm/h" ; SR_KulieBennartz2009_mean:long_name = "Snow rate (aggregates model; Kulie and Bennartz, 2009)" ; SR_KulieBennartz2009_mean:database = "Ice habit models" ; SR_KulieBennartz2009_mean:source = "Their Table 1 (HA category)" ; SR_KulieBennartz2009_mean:reference = "https://doi.org/10.1175/2009JAMC2193.1" ; SR_KulieBennartz2009_mean:statistic = "mean" ; double SR_KulieBennartz2009_std(feature_num) ; SR_KulieBennartz2009_std:_FillValue = -9999. ; SR_KulieBennartz2009_std:analysis_type = "Z-S_KuliBennartz2009" ; SR_KulieBennartz2009_std:units = "mm/h" ; SR_KulieBennartz2009_std:long_name = "Snow rate (aggregates model; Kulie and Bennartz, 2009)" ; SR_KulieBennartz2009_std:database = "Ice habit models" ; SR_KulieBennartz2009_std:source = "Their Table 1 (HA category)" ; SR_KulieBennartz2009_std:reference = "https://doi.org/10.1175/2009JAMC2193.1" ; SR_KulieBennartz2009_std:statistic = "std" ; double SR_KulieBennartz2009_p99(feature_num) ; SR_KulieBennartz2009_p99:_FillValue = -9999. ; SR_KulieBennartz2009_p99:analysis_type = "Z-S_KuliBennartz2009" ; SR_KulieBennartz2009_p99:units = "mm/h" ; SR_KulieBennartz2009_p99:long_name = "Snow rate (aggregates model; Kulie and Bennartz, 2009)" ; SR_KulieBennartz2009_p99:database = "Ice habit models" ; SR_KulieBennartz2009_p99:source = "Their Table 1 (HA category)" ; SR_KulieBennartz2009_p99:reference = "https://doi.org/10.1175/2009JAMC2193.1" ; SR_KulieBennartz2009_p99:statistic = "p99" ; double SR_Matrosov2007_mean(feature_num) ; SR_Matrosov2007_mean:_FillValue = -9999. ; SR_Matrosov2007_mean:analysis_type = "Z-S_Matrosov2007" ; SR_Matrosov2007_mean:units = "mm/h" ; SR_Matrosov2007_mean:long_name = "Snow rate (ice models; Matrosov, 2007)" ; SR_Matrosov2007_mean:database = "Ice habit models" ; SR_Matrosov2007_mean:source = "Their Table 1" ; SR_Matrosov2007_mean:reference = "https://doi.org/10.1175/JAS3904.1" ; SR_Matrosov2007_mean:statistic = "mean" ; double SR_Matrosov2007_std(feature_num) ; SR_Matrosov2007_std:_FillValue = -9999. ; SR_Matrosov2007_std:analysis_type = "Z-S_Matrosov2007" ; SR_Matrosov2007_std:units = "mm/h" ; SR_Matrosov2007_std:long_name = "Snow rate (ice models; Matrosov, 2007)" ; SR_Matrosov2007_std:database = "Ice habit models" ; SR_Matrosov2007_std:source = "Their Table 1" ; SR_Matrosov2007_std:reference = "https://doi.org/10.1175/JAS3904.1" ; SR_Matrosov2007_std:statistic = "std" ; double SR_Matrosov2007_p99(feature_num) ; SR_Matrosov2007_p99:_FillValue = -9999. ; SR_Matrosov2007_p99:analysis_type = "Z-S_Matrosov2007" ; SR_Matrosov2007_p99:units = "mm/h" ; SR_Matrosov2007_p99:long_name = "Snow rate (ice models; Matrosov, 2007)" ; SR_Matrosov2007_p99:database = "Ice habit models" ; SR_Matrosov2007_p99:source = "Their Table 1" ; SR_Matrosov2007_p99:reference = "https://doi.org/10.1175/JAS3904.1" ; SR_Matrosov2007_p99:statistic = "p99" ; double SR_Heymsfield2018_mean(feature_num) ; SR_Heymsfield2018_mean:_FillValue = -9999. ; SR_Heymsfield2018_mean:analysis_type = "Z-S_Heymsfield2018" ; SR_Heymsfield2018_mean:units = "mm/h" ; SR_Heymsfield2018_mean:long_name = "Snow rate (in-cloud; Heymsfield et al., 2018)" ; SR_Heymsfield2018_mean:database = "In-cloud; Washington State (OLYMPEX) and Ontario, Canada GCPEX; 2D-S/HVPS-3/APR-3/APR-2/2D-C/CIP" ; SR_Heymsfield2018_mean:source = "Their Table 3 for no liquid water cases" ; SR_Heymsfield2018_mean:reference = "https://doi.org/10.1175/JAMC-D-17-0164.1" ; SR_Heymsfield2018_mean:statistic = "mean" ; double SR_Heymsfield2018_std(feature_num) ; SR_Heymsfield2018_std:_FillValue = -9999. ; SR_Heymsfield2018_std:analysis_type = "Z-S_Heymsfield2018" ; SR_Heymsfield2018_std:units = "mm/h" ; SR_Heymsfield2018_std:long_name = "Snow rate (in-cloud; Heymsfield et al., 2018)" ; SR_Heymsfield2018_std:database = "In-cloud; Washington State (OLYMPEX) and Ontario, Canada GCPEX; 2D-S/HVPS-3/APR-3/APR-2/2D-C/CIP" ; SR_Heymsfield2018_std:source = "Their Table 3 for no liquid water cases" ; SR_Heymsfield2018_std:reference = "https://doi.org/10.1175/JAMC-D-17-0164.1" ; SR_Heymsfield2018_std:statistic = "std" ; double SR_Heymsfield2018_p99(feature_num) ; SR_Heymsfield2018_p99:_FillValue = -9999. ; SR_Heymsfield2018_p99:analysis_type = "Z-S_Heymsfield2018" ; SR_Heymsfield2018_p99:units = "mm/h" ; SR_Heymsfield2018_p99:long_name = "Snow rate (in-cloud; Heymsfield et al., 2018)" ; SR_Heymsfield2018_p99:database = "In-cloud; Washington State (OLYMPEX) and Ontario, Canada GCPEX; 2D-S/HVPS-3/APR-3/APR-2/2D-C/CIP" ; SR_Heymsfield2018_p99:source = "Their Table 3 for no liquid water cases" ; SR_Heymsfield2018_p99:reference = "https://doi.org/10.1175/JAMC-D-17-0164.1" ; SR_Heymsfield2018_p99:statistic = "p99" ; double SR_LR_Falconi2018_mean(feature_num) ; SR_LR_Falconi2018_mean:_FillValue = -9999. ; SR_LR_Falconi2018_mean:analysis_type = "Z-S_LR_Falconi2018" ; SR_LR_Falconi2018_mean:units = "mm/h" ; SR_LR_Falconi2018_mean:long_name = "Snow rate (surface; Falconi et al., 2018)" ; SR_LR_Falconi2018_mean:database = "Surface; Hyytiälä, Finland BAECC; PIP/Pluvio/MWR/KAZR/MWACR/XSACR" ; SR_LR_Falconi2018_mean:source = "Their Table 2 for light riming" ; SR_LR_Falconi2018_mean:reference = "https://doi.org/10.5194/amt-11-3059-2018" ; SR_LR_Falconi2018_mean:statistic = "mean" ; double SR_LR_Falconi2018_std(feature_num) ; SR_LR_Falconi2018_std:_FillValue = -9999. ; SR_LR_Falconi2018_std:analysis_type = "Z-S_LR_Falconi2018" ; SR_LR_Falconi2018_std:units = "mm/h" ; SR_LR_Falconi2018_std:long_name = "Snow rate (surface; Falconi et al., 2018)" ; SR_LR_Falconi2018_std:database = "Surface; Hyytiälä, Finland BAECC; PIP/Pluvio/MWR/KAZR/MWACR/XSACR" ; SR_LR_Falconi2018_std:source = "Their Table 2 for light riming" ; SR_LR_Falconi2018_std:reference = "https://doi.org/10.5194/amt-11-3059-2018" ; SR_LR_Falconi2018_std:statistic = "std" ; double SR_LR_Falconi2018_p99(feature_num) ; SR_LR_Falconi2018_p99:_FillValue = -9999. ; SR_LR_Falconi2018_p99:analysis_type = "Z-S_LR_Falconi2018" ; SR_LR_Falconi2018_p99:units = "mm/h" ; SR_LR_Falconi2018_p99:long_name = "Snow rate (surface; Falconi et al., 2018)" ; SR_LR_Falconi2018_p99:database = "Surface; Hyytiälä, Finland BAECC; PIP/Pluvio/MWR/KAZR/MWACR/XSACR" ; SR_LR_Falconi2018_p99:source = "Their Table 2 for light riming" ; SR_LR_Falconi2018_p99:reference = "https://doi.org/10.5194/amt-11-3059-2018" ; SR_LR_Falconi2018_p99:statistic = "p99" ; double SR_MR_Falconi2018_mean(feature_num) ; SR_MR_Falconi2018_mean:_FillValue = -9999. ; SR_MR_Falconi2018_mean:analysis_type = "Z-S_MR_Falconi2018" ; SR_MR_Falconi2018_mean:units = "mm/h" ; SR_MR_Falconi2018_mean:long_name = "Snow rate (surface; Falconi et al., 2018)" ; SR_MR_Falconi2018_mean:database = "Surface; Hyytiälä, Finland BAECC; PIP/Pluvio/MWR/KAZR/MWACR/XSACR" ; SR_MR_Falconi2018_mean:source = "Their Table 2 for moderate riming" ; SR_MR_Falconi2018_mean:reference = "https://doi.org/10.5194/amt-11-3059-2018" ; SR_MR_Falconi2018_mean:statistic = "mean" ; double SR_MR_Falconi2018_std(feature_num) ; SR_MR_Falconi2018_std:_FillValue = -9999. ; SR_MR_Falconi2018_std:analysis_type = "Z-S_MR_Falconi2018" ; SR_MR_Falconi2018_std:units = "mm/h" ; SR_MR_Falconi2018_std:long_name = "Snow rate (surface; Falconi et al., 2018)" ; SR_MR_Falconi2018_std:database = "Surface; Hyytiälä, Finland BAECC; PIP/Pluvio/MWR/KAZR/MWACR/XSACR" ; SR_MR_Falconi2018_std:source = "Their Table 2 for moderate riming" ; SR_MR_Falconi2018_std:reference = "https://doi.org/10.5194/amt-11-3059-2018" ; SR_MR_Falconi2018_std:statistic = "std" ; double SR_MR_Falconi2018_p99(feature_num) ; SR_MR_Falconi2018_p99:_FillValue = -9999. ; SR_MR_Falconi2018_p99:analysis_type = "Z-S_MR_Falconi2018" ; SR_MR_Falconi2018_p99:units = "mm/h" ; SR_MR_Falconi2018_p99:long_name = "Snow rate (surface; Falconi et al., 2018)" ; SR_MR_Falconi2018_p99:database = "Surface; Hyytiälä, Finland BAECC; PIP/Pluvio/MWR/KAZR/MWACR/XSACR" ; SR_MR_Falconi2018_p99:source = "Their Table 2 for moderate riming" ; SR_MR_Falconi2018_p99:reference = "https://doi.org/10.5194/amt-11-3059-2018" ; SR_MR_Falconi2018_p99:statistic = "p99" ; double IWC_Silber2023_mean(feature_num) ; IWC_Silber2023_mean:_FillValue = -9999. ; IWC_Silber2023_mean:analysis_type = "Z-IWC_Silber2023" ; IWC_Silber2023_mean:units = "g/m^3" ; IWC_Silber2023_mean:long_name = "IWC (cloud base; Silber, 2023)" ; IWC_Silber2023_mean:database = "Cloud base; ARM NSA site; KAZR/HSRL/SONDE" ; IWC_Silber2023_mean:source = "Their Table 3" ; IWC_Silber2023_mean:reference = "https://doi.org/10.1029/2022JD038202" ; IWC_Silber2023_mean:statistic = "mean" ; double IWC_Silber2023_std(feature_num) ; IWC_Silber2023_std:_FillValue = -9999. ; IWC_Silber2023_std:analysis_type = "Z-IWC_Silber2023" ; IWC_Silber2023_std:units = "g/m^3" ; IWC_Silber2023_std:long_name = "IWC (cloud base; Silber, 2023)" ; IWC_Silber2023_std:database = "Cloud base; ARM NSA site; KAZR/HSRL/SONDE" ; IWC_Silber2023_std:source = "Their Table 3" ; IWC_Silber2023_std:reference = "https://doi.org/10.1029/2022JD038202" ; IWC_Silber2023_std:statistic = "std" ; double IWC_Silber2023_p99(feature_num) ; IWC_Silber2023_p99:_FillValue = -9999. ; IWC_Silber2023_p99:analysis_type = "Z-IWC_Silber2023" ; IWC_Silber2023_p99:units = "g/m^3" ; IWC_Silber2023_p99:long_name = "IWC (cloud base; Silber, 2023)" ; IWC_Silber2023_p99:database = "Cloud base; ARM NSA site; KAZR/HSRL/SONDE" ; IWC_Silber2023_p99:source = "Their Table 3" ; IWC_Silber2023_p99:reference = "https://doi.org/10.1029/2022JD038202" ; IWC_Silber2023_p99:statistic = "p99" ; double IWC_Heymsfield2018_mean(feature_num) ; IWC_Heymsfield2018_mean:_FillValue = -9999. ; IWC_Heymsfield2018_mean:analysis_type = "R-ZdBZ" ; IWC_Heymsfield2018_mean:a = 0.297 ; IWC_Heymsfield2018_mean:b = 0.151 ; IWC_Heymsfield2018_mean:units = "g/m^3" ; IWC_Heymsfield2018_mean:long_name = "IWC (in-cloud; Heymsfield et al., 2018)" ; IWC_Heymsfield2018_mean:database = "In-cloud; Washington State (OLYMPEX) and Ontario, Canada GCPEX; 2D-S/HVPS-3/APR-3/APR-2/2D-C/CIP" ; IWC_Heymsfield2018_mean:source = "Their Table 3 composite" ; IWC_Heymsfield2018_mean:reference = "https://doi.org/10.1175/JAMC-D-17-0164.1" ; IWC_Heymsfield2018_mean:statistic = "mean" ; double IWC_Heymsfield2018_std(feature_num) ; IWC_Heymsfield2018_std:_FillValue = -9999. ; IWC_Heymsfield2018_std:analysis_type = "R-ZdBZ" ; IWC_Heymsfield2018_std:a = 0.297 ; IWC_Heymsfield2018_std:b = 0.151 ; IWC_Heymsfield2018_std:units = "g/m^3" ; IWC_Heymsfield2018_std:long_name = "IWC (in-cloud; Heymsfield et al., 2018)" ; IWC_Heymsfield2018_std:database = "In-cloud; Washington State (OLYMPEX) and Ontario, Canada GCPEX; 2D-S/HVPS-3/APR-3/APR-2/2D-C/CIP" ; IWC_Heymsfield2018_std:source = "Their Table 3 composite" ; IWC_Heymsfield2018_std:reference = "https://doi.org/10.1175/JAMC-D-17-0164.1" ; IWC_Heymsfield2018_std:statistic = "std" ; double IWC_Heymsfield2018_p99(feature_num) ; IWC_Heymsfield2018_p99:_FillValue = -9999. ; IWC_Heymsfield2018_p99:analysis_type = "R-ZdBZ" ; IWC_Heymsfield2018_p99:a = 0.297 ; IWC_Heymsfield2018_p99:b = 0.151 ; IWC_Heymsfield2018_p99:units = "g/m^3" ; IWC_Heymsfield2018_p99:long_name = "IWC (in-cloud; Heymsfield et al., 2018)" ; IWC_Heymsfield2018_p99:database = "In-cloud; Washington State (OLYMPEX) and Ontario, Canada GCPEX; 2D-S/HVPS-3/APR-3/APR-2/2D-C/CIP" ; IWC_Heymsfield2018_p99:source = "Their Table 3 composite" ; IWC_Heymsfield2018_p99:reference = "https://doi.org/10.1175/JAMC-D-17-0164.1" ; IWC_Heymsfield2018_p99:statistic = "p99" ; double IWC_Hogan2006_mean(feature_num) ; IWC_Hogan2006_mean:_FillValue = -9999. ; IWC_Hogan2006_mean:analysis_type = "ZT-IWC_Hogan2006" ; IWC_Hogan2006_mean:units = "g/m^3" ; IWC_Hogan2006_mean:long_name = "IWC (ice clouds; Hogan et al., 2006)" ; IWC_Hogan2006_mean:database = "Ice clouds; United Kingdom; 2D-C/2D-P" ; IWC_Hogan2006_mean:source = "Their Table 2" ; IWC_Hogan2006_mean:reference = "https://doi.org/10.1175/JAM2340.1" ; IWC_Hogan2006_mean:statistic = "mean" ; double IWC_Hogan2006_std(feature_num) ; IWC_Hogan2006_std:_FillValue = -9999. ; IWC_Hogan2006_std:analysis_type = "ZT-IWC_Hogan2006" ; IWC_Hogan2006_std:units = "g/m^3" ; IWC_Hogan2006_std:long_name = "IWC (ice clouds; Hogan et al., 2006)" ; IWC_Hogan2006_std:database = "Ice clouds; United Kingdom; 2D-C/2D-P" ; IWC_Hogan2006_std:source = "Their Table 2" ; IWC_Hogan2006_std:reference = "https://doi.org/10.1175/JAM2340.1" ; IWC_Hogan2006_std:statistic = "std" ; double IWC_Hogan2006_p99(feature_num) ; IWC_Hogan2006_p99:_FillValue = -9999. ; IWC_Hogan2006_p99:analysis_type = "ZT-IWC_Hogan2006" ; IWC_Hogan2006_p99:units = "g/m^3" ; IWC_Hogan2006_p99:long_name = "IWC (ice clouds; Hogan et al., 2006)" ; IWC_Hogan2006_p99:database = "Ice clouds; United Kingdom; 2D-C/2D-P" ; IWC_Hogan2006_p99:source = "Their Table 2" ; IWC_Hogan2006_p99:reference = "https://doi.org/10.1175/JAM2340.1" ; IWC_Hogan2006_p99:statistic = "p99" ; double RR_Comstock2004_CB_mean(feature_num) ; RR_Comstock2004_CB_mean:_FillValue = -9999. ; RR_Comstock2004_CB_mean:analysis_type = "Z-R" ; RR_Comstock2004_CB_mean:a = 25. ; RR_Comstock2004_CB_mean:b = 1.3 ; RR_Comstock2004_CB_mean:units = "mm/h" ; RR_Comstock2004_CB_mean:long_name = "Rain rate (cloud base; Comstock et al., 2004)" ; RR_Comstock2004_CB_mean:database = "Cloud base; East Pacific EPIC Sc; MMCR" ; RR_Comstock2004_CB_mean:source = "Their text and Figure 6" ; RR_Comstock2004_CB_mean:reference = "https://doi.org/10.1256/qj.03.187" ; RR_Comstock2004_CB_mean:statistic = "mean" ; double RR_Comstock2004_CB_std(feature_num) ; RR_Comstock2004_CB_std:_FillValue = -9999. ; RR_Comstock2004_CB_std:analysis_type = "Z-R" ; RR_Comstock2004_CB_std:a = 25. ; RR_Comstock2004_CB_std:b = 1.3 ; RR_Comstock2004_CB_std:units = "mm/h" ; RR_Comstock2004_CB_std:long_name = "Rain rate (cloud base; Comstock et al., 2004)" ; RR_Comstock2004_CB_std:database = "Cloud base; East Pacific EPIC Sc; MMCR" ; RR_Comstock2004_CB_std:source = "Their text and Figure 6" ; RR_Comstock2004_CB_std:reference = "https://doi.org/10.1256/qj.03.187" ; RR_Comstock2004_CB_std:statistic = "std" ; double RR_Comstock2004_CB_p99(feature_num) ; RR_Comstock2004_CB_p99:_FillValue = -9999. ; RR_Comstock2004_CB_p99:analysis_type = "Z-R" ; RR_Comstock2004_CB_p99:a = 25. ; RR_Comstock2004_CB_p99:b = 1.3 ; RR_Comstock2004_CB_p99:units = "mm/h" ; RR_Comstock2004_CB_p99:long_name = "Rain rate (cloud base; Comstock et al., 2004)" ; RR_Comstock2004_CB_p99:database = "Cloud base; East Pacific EPIC Sc; MMCR" ; RR_Comstock2004_CB_p99:source = "Their text and Figure 6" ; RR_Comstock2004_CB_p99:reference = "https://doi.org/10.1256/qj.03.187" ; RR_Comstock2004_CB_p99:statistic = "p99" ; double RR_VanZanten2005_CB_mean(feature_num) ; RR_VanZanten2005_CB_mean:_FillValue = -9999. ; RR_VanZanten2005_CB_mean:analysis_type = "R-ZdBZ" ; RR_VanZanten2005_CB_mean:a = 0.11375 ; RR_VanZanten2005_CB_mean:b = 0.68 ; RR_VanZanten2005_CB_mean:units = "mm/h" ; RR_VanZanten2005_CB_mean:long_name = "Rain rate (cloud base; VanZanten et al., 2005)" ; RR_VanZanten2005_CB_mean:database = "Cloud base; NorthEast Pacific (San Diego) DYCOMS-II Sc; SPP-100/260x" ; RR_VanZanten2005_CB_mean:source = "Their \'All\' category in Table 2; converted from mm/day to mm/h" ; RR_VanZanten2005_CB_mean:reference = "https://doi.org/10.1175/JAS-3355.1" ; RR_VanZanten2005_CB_mean:statistic = "mean" ; double RR_VanZanten2005_CB_std(feature_num) ; RR_VanZanten2005_CB_std:_FillValue = -9999. ; RR_VanZanten2005_CB_std:analysis_type = "R-ZdBZ" ; RR_VanZanten2005_CB_std:a = 0.11375 ; RR_VanZanten2005_CB_std:b = 0.68 ; RR_VanZanten2005_CB_std:units = "mm/h" ; RR_VanZanten2005_CB_std:long_name = "Rain rate (cloud base; VanZanten et al., 2005)" ; RR_VanZanten2005_CB_std:database = "Cloud base; NorthEast Pacific (San Diego) DYCOMS-II Sc; SPP-100/260x" ; RR_VanZanten2005_CB_std:source = "Their \'All\' category in Table 2; converted from mm/day to mm/h" ; RR_VanZanten2005_CB_std:reference = "https://doi.org/10.1175/JAS-3355.1" ; RR_VanZanten2005_CB_std:statistic = "std" ; double RR_VanZanten2005_CB_p99(feature_num) ; RR_VanZanten2005_CB_p99:_FillValue = -9999. ; RR_VanZanten2005_CB_p99:analysis_type = "R-ZdBZ" ; RR_VanZanten2005_CB_p99:a = 0.11375 ; RR_VanZanten2005_CB_p99:b = 0.68 ; RR_VanZanten2005_CB_p99:units = "mm/h" ; RR_VanZanten2005_CB_p99:long_name = "Rain rate (cloud base; VanZanten et al., 2005)" ; RR_VanZanten2005_CB_p99:database = "Cloud base; NorthEast Pacific (San Diego) DYCOMS-II Sc; SPP-100/260x" ; RR_VanZanten2005_CB_p99:source = "Their \'All\' category in Table 2; converted from mm/day to mm/h" ; RR_VanZanten2005_CB_p99:reference = "https://doi.org/10.1175/JAS-3355.1" ; RR_VanZanten2005_CB_p99:statistic = "p99" ; double RR_VanZanten2005_SFC_mean(feature_num) ; RR_VanZanten2005_SFC_mean:_FillValue = -9999. ; RR_VanZanten2005_SFC_mean:analysis_type = "R-ZdBZ" ; RR_VanZanten2005_SFC_mean:a = 0.02125 ; RR_VanZanten2005_SFC_mean:b = 0.34 ; RR_VanZanten2005_SFC_mean:units = "mm/h" ; RR_VanZanten2005_SFC_mean:long_name = "Rain rate (surface; VanZanten et al., 2005)" ; RR_VanZanten2005_SFC_mean:database = "Surface; NorthEast Pacific (San Diego) DYCOMS-II Sc; SPP-100/260x" ; RR_VanZanten2005_SFC_mean:source = "Their \'All\' category in Table 2; converted from mm/day to mm/h" ; RR_VanZanten2005_SFC_mean:reference = "https://doi.org/10.1175/JAS-3355.1" ; RR_VanZanten2005_SFC_mean:statistic = "mean" ; double RR_VanZanten2005_SFC_std(feature_num) ; RR_VanZanten2005_SFC_std:_FillValue = -9999. ; RR_VanZanten2005_SFC_std:analysis_type = "R-ZdBZ" ; RR_VanZanten2005_SFC_std:a = 0.02125 ; RR_VanZanten2005_SFC_std:b = 0.34 ; RR_VanZanten2005_SFC_std:units = "mm/h" ; RR_VanZanten2005_SFC_std:long_name = "Rain rate (surface; VanZanten et al., 2005)" ; RR_VanZanten2005_SFC_std:database = "Surface; NorthEast Pacific (San Diego) DYCOMS-II Sc; SPP-100/260x" ; RR_VanZanten2005_SFC_std:source = "Their \'All\' category in Table 2; converted from mm/day to mm/h" ; RR_VanZanten2005_SFC_std:reference = "https://doi.org/10.1175/JAS-3355.1" ; RR_VanZanten2005_SFC_std:statistic = "std" ; double RR_VanZanten2005_SFC_p99(feature_num) ; RR_VanZanten2005_SFC_p99:_FillValue = -9999. ; RR_VanZanten2005_SFC_p99:analysis_type = "R-ZdBZ" ; RR_VanZanten2005_SFC_p99:a = 0.02125 ; RR_VanZanten2005_SFC_p99:b = 0.34 ; RR_VanZanten2005_SFC_p99:units = "mm/h" ; RR_VanZanten2005_SFC_p99:long_name = "Rain rate (surface; VanZanten et al., 2005)" ; RR_VanZanten2005_SFC_p99:database = "Surface; NorthEast Pacific (San Diego) DYCOMS-II Sc; SPP-100/260x" ; RR_VanZanten2005_SFC_p99:source = "Their \'All\' category in Table 2; converted from mm/day to mm/h" ; RR_VanZanten2005_SFC_p99:reference = "https://doi.org/10.1175/JAS-3355.1" ; RR_VanZanten2005_SFC_p99:statistic = "p99" ; double RR_Wood2005_CLD_mean(feature_num) ; RR_Wood2005_CLD_mean:_FillValue = -9999. ; RR_Wood2005_CLD_mean:analysis_type = "Z-R" ; RR_Wood2005_CLD_mean:a = 12.4 ; RR_Wood2005_CLD_mean:b = 1.18 ; RR_Wood2005_CLD_mean:units = "mm/h" ; RR_Wood2005_CLD_mean:long_name = "Rain rate (in-cloud; Wood, 2005)" ; RR_Wood2005_CLD_mean:database = "In-cloud; NorthEast Atlantic ASTEX Sc; FSSP/2D-C" ; RR_Wood2005_CLD_mean:source = "Their Table 2 for exponential (better fit based on text)" ; RR_Wood2005_CLD_mean:reference = "https://doi.org/10.1175/JAS3530.1" ; RR_Wood2005_CLD_mean:statistic = "mean" ; double RR_Wood2005_CLD_std(feature_num) ; RR_Wood2005_CLD_std:_FillValue = -9999. ; RR_Wood2005_CLD_std:analysis_type = "Z-R" ; RR_Wood2005_CLD_std:a = 12.4 ; RR_Wood2005_CLD_std:b = 1.18 ; RR_Wood2005_CLD_std:units = "mm/h" ; RR_Wood2005_CLD_std:long_name = "Rain rate (in-cloud; Wood, 2005)" ; RR_Wood2005_CLD_std:database = "In-cloud; NorthEast Atlantic ASTEX Sc; FSSP/2D-C" ; RR_Wood2005_CLD_std:source = "Their Table 2 for exponential (better fit based on text)" ; RR_Wood2005_CLD_std:reference = "https://doi.org/10.1175/JAS3530.1" ; RR_Wood2005_CLD_std:statistic = "std" ; double RR_Wood2005_CLD_p99(feature_num) ; RR_Wood2005_CLD_p99:_FillValue = -9999. ; RR_Wood2005_CLD_p99:analysis_type = "Z-R" ; RR_Wood2005_CLD_p99:a = 12.4 ; RR_Wood2005_CLD_p99:b = 1.18 ; RR_Wood2005_CLD_p99:units = "mm/h" ; RR_Wood2005_CLD_p99:long_name = "Rain rate (in-cloud; Wood, 2005)" ; RR_Wood2005_CLD_p99:database = "In-cloud; NorthEast Atlantic ASTEX Sc; FSSP/2D-C" ; RR_Wood2005_CLD_p99:source = "Their Table 2 for exponential (better fit based on text)" ; RR_Wood2005_CLD_p99:reference = "https://doi.org/10.1175/JAS3530.1" ; RR_Wood2005_CLD_p99:statistic = "p99" ; double alt_mean(feature_num) ; alt_mean:_FillValue = -9999. ; alt_mean:analysis_type = "values" ; alt_mean:units = "m" ; alt_mean:long_name = "Estimated height" ; alt_mean:statistic = "mean" ; double alt_min(feature_num) ; alt_min:_FillValue = -9999. ; alt_min:analysis_type = "values" ; alt_min:units = "m" ; alt_min:long_name = "Estimated height" ; alt_min:statistic = "min" ; double alt_max(feature_num) ; alt_max:_FillValue = -9999. ; alt_max:analysis_type = "values" ; alt_max:units = "m" ; alt_max:long_name = "Estimated height" ; alt_max:statistic = "max" ; double T_mean(feature_num) ; T_mean:_FillValue = -9999. ; T_mean:analysis_type = "values" ; T_mean:units = "degC" ; T_mean:long_name = "Interpolated temperature" ; T_mean:statistic = "mean" ; double T_min(feature_num) ; T_min:_FillValue = -9999. ; T_min:analysis_type = "values" ; T_min:units = "degC" ; T_min:long_name = "Interpolated temperature" ; T_min:statistic = "min" ; double T_max(feature_num) ; T_max:_FillValue = -9999. ; T_max:analysis_type = "values" ; T_max:units = "degC" ; T_max:long_name = "Interpolated temperature" ; T_max:statistic = "max" ; double RH_mean(feature_num) ; RH_mean:_FillValue = -9999. ; RH_mean:analysis_type = "values" ; RH_mean:units = "%" ; RH_mean:long_name = "Interpolated relative humidity" ; RH_mean:statistic = "mean" ; double RH_min(feature_num) ; RH_min:_FillValue = -9999. ; RH_min:analysis_type = "values" ; RH_min:units = "%" ; RH_min:long_name = "Interpolated relative humidity" ; RH_min:statistic = "min" ; double RH_max(feature_num) ; RH_max:_FillValue = -9999. ; RH_max:analysis_type = "values" ; RH_max:units = "%" ; RH_max:long_name = "Interpolated relative humidity" ; RH_max:statistic = "max" ; double p_mean(feature_num) ; p_mean:_FillValue = -9999. ; p_mean:analysis_type = "values" ; p_mean:units = "kPa" ; p_mean:long_name = "Interpolated air pressure" ; p_mean:statistic = "mean" ; double p_min(feature_num) ; p_min:_FillValue = -9999. ; p_min:analysis_type = "values" ; p_min:units = "kPa" ; p_min:long_name = "Interpolated air pressure" ; p_min:statistic = "min" ; double p_max(feature_num) ; p_max:_FillValue = -9999. ; p_max:analysis_type = "values" ; p_max:units = "kPa" ; p_max:long_name = "Interpolated air pressure" ; p_max:statistic = "max" ; double Fill_percent(feature_num) ; Fill_percent:_FillValue = -9999. ; Fill_percent:units = "%" ; Fill_percent:long_name = "Percentage of hydrometeor object\'s area excluding holes" ; double Solidity(feature_num) ; Solidity:_FillValue = -9999. ; Solidity:units = "1" ; Solidity:long_name = "Fraction of hydrometeor object\'s echoes relative to convex hull area" ; double area(feature_num) ; area:_FillValue = -9999. ; area:units = "km^2" ; area:long_name = "area of hydrometeor field" ; double maximum_dimension(feature_num) ; maximum_dimension:_FillValue = -9999. ; maximum_dimension:units = "km" ; maximum_dimension:long_name = "Maximum dimension of hydrometeor field (using maximum Feret diameter)" ; double ellipse_fit_centroid_x(feature_num) ; ellipse_fit_centroid_x:_FillValue = -9999. ; ellipse_fit_centroid_x:units = "m" ; ellipse_fit_centroid_x:long_name = "Fitted ellipse cetroid x (E/W) coordinate value" ; double ellipse_fit_centroid_y(feature_num) ; ellipse_fit_centroid_y:_FillValue = -9999. ; ellipse_fit_centroid_y:units = "m" ; ellipse_fit_centroid_y:long_name = "Fitted ellipse cetroid y (N/S) coordinate value" ; double ellipse_fit_orientation(feature_num) ; ellipse_fit_orientation:_FillValue = -9999. ; ellipse_fit_orientation:units = "degree" ; ellipse_fit_orientation:long_name = "Fitted ellipse orientation angle from the x (E/W) plane counter-clockwise" ; double ellipse_fit_a_axis(feature_num) ; ellipse_fit_a_axis:_FillValue = -9999. ; ellipse_fit_a_axis:units = "km" ; ellipse_fit_a_axis:long_name = "Fitted ellipse semi-major axis length" ; double ellipse_fit_c_axis(feature_num) ; ellipse_fit_c_axis:_FillValue = -9999. ; ellipse_fit_c_axis:units = "km" ; ellipse_fit_c_axis:long_name = "Fitted ellipse semi-minor axis length" ; double x2_prom_peaks(feature_num) ; x2_prom_peaks:_FillValue = -9999. ; x2_prom_peaks:units = "1" ; x2_prom_peaks:long_name = "Number of peaks with prominenence of 2 times their (linear scale) surrounding" ; double x5_prom_peaks(feature_num) ; x5_prom_peaks:_FillValue = -9999. ; x5_prom_peaks:units = "1" ; x5_prom_peaks:long_name = "Number of peaks with prominenence of 5 times their (linear scale) surrounding" ; double x10_prom_peaks(feature_num) ; x10_prom_peaks:_FillValue = -9999. ; x10_prom_peaks:units = "1" ; x10_prom_peaks:long_name = "Number of peaks with prominenence of 10 times their (linear scale) surrounding" ; int sweep(feature_num) ; sweep:_FillValue = -9999 ; sweep:long_name = "Sweep number" ; sweep:units = "1" ; float mean_elevation_angle(feature_num) ; mean_elevation_angle:_FillValue = -9999.f ; mean_elevation_angle:long_name = "Mean elevation angle in sweep" ; mean_elevation_angle:units = "degree" ; int feature_num(feature_num) ; feature_num:long_name = "Feature number" ; feature_num:units = "1" ; double feature_time(feature_num) ; feature_time:_FillValue = -9999. ; feature_time:long_name = "Radar sweep time per feature" ; feature_time:units = "seconds since 2020-05-31 00:31:29 0:00" ; double time(time) ; time:long_name = "Time in seconds since volume start" ; time:units = "seconds since 2020-05-31 00:31:29 0:00" ; double time_offset(time) ; time_offset:_FillValue = -9999. ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2020-05-31 00:31:29 0:00" ; int base_time ; base_time:_FillValue = -9999 ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-01-01 0:00:00 0:00" ; double lat ; lat:_FillValue = -9999. ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; double lon ; lon:_FillValue = -9999. ; lon:long_name = "longitude" ; lon:units = "degree_E" ; double alt ; alt:_FillValue = -9999. ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; // global attributes: :site = "anx" ; :_NCProperties = "version=2,netcdf=4.8.1,hdf5=1.12.2" ; :facility = "M1" ; :level = "c1" ; :instrument = "kasacr" ; :doi = "10.5439/2203039" ; :dod_version = "v1.0" ; :command_line = "python SACR_cluster_main.py" ; :datastream = "anxkasacrppihydfeatM1.c1" ; :history = "created by user isilber1 on machine dev-proc2 at 29-Dec-2023,15:03:51" ; }